Marilyne AndersenMarilyne Andersen est professeure ordinaire en technologies durables de la construction et dirige le Laboratoire Performance Intégrée au Design (LIPID) qu'elle a fondé en automne 2010. Elle a été Doyenne de la Faculté de l'Environnement Naturel, Architectural et Construit (ENAC) de l'EPFL de 2013 à 2018 et est la Directrice Académique du Smart Living Lab à Fribourg. Elle co-dirige également le Student Kreativity and Innovation Laboratory (SKIL) à l'ENAC.Avant de rejoindre l'EPFL, elle était professeure assistante puis associée (tenure-track) dans le Building Technology Group du MIT, au sein du Département d'Architecture, où elle a fondé et dirigé le MIT Daylighting Lab depuis 2004. Elle a aussi été professeure invitée à la Singapore University of Technology and Design en 2019. Marilyne Andersen détient un Master ès sciences en physique et s'est spécialisée dans l'éclairage naturel durant sa thèse dans la physique du bâtiment à l'EPFL au Laboratoire d'énergie solaire et de physique du bâtiment (LESO) ainsi qu'en tant que chercheuse invitée au Building Technologies Department du Lawrence Berkeley National Laboratory en Californie. Ses recherches se situent à l'interface entre sciences, ingénierie et architecture avec une attention spécifique sur l'impact de la lumière naturelle sur les occupants d'un bâtiment. Avec un focus sur les questions de confort, de perception et de santé et leurs implications énergétiques, ces efforts de recherche visent à une intégration plus profonde de la performance lumineuse et du confort intérieur dans le processus de conception, grâce à de nouvelles synergies avec d'autres domaines scientifiques, comme la chronobiologie et les neurosciences ainsi que la psychophysique ou l'informatique et l'imagerie digitale. Elle s'appuie sur ces recherches pour les étendre à la pratique architecturale à travers la startup OCULIGHT dynamics qu'elle a co-fondée, et qui offre des services spécialisés en éclairage naturel avec un accent particulier sur les effets psycho-physiologiques de la lumière naturelle sur les occupants d'un bâtiment. Elle est l'auteure de plus de 200 articles référés publiés dans des revues scientifiques et lors de conférences internationales, ainsi que la lauréate de plusieurs bourses et prix dont: le Daylight Award for Research (2016), onze prix et distinctions pour ses publications (2009, 2011, 2012, 2015, 2018, 2019, 2021) dont le Taylor Technical Talent Award 2009 décerné par la Illuminating Engineering Society, le 3M Non-Tenured Faculty Award (2009), le Mitsui Career Development Professorship au MIT (2008) et le prix EPFL de la Fondation Chorafas en durabilité attribué pour sa thèse (2005). Ses travaux de recherche ou d'enseignement ont été soutenus par des organisations professionnelles, institutionnelles et industrielles tels que les Fonds National pour la Recherche Scientifique (en Suisse et aux USA), la fondation Velux, le programme Européen Horizon 2020, la Boston Society of Architects, la MIT Energy Initiative et InnoSuisse. Elle a été la directrice et responsable académique de l'équipe suisse et son projet NeighborHub, qui a gagné la compétition U.S. Solar Decathlon 2017 avec 8 podiums sur 10 épreuves. Elle est membre du Conseil de la Fondation LafargeHolcim pour la construction durable et dirige son Comité Académique. Elle est également membre du conseil éditorial de la revue scientifique Building and Environment chez Elsevier ainsi que des revues LEUKOS (de la Illuminating Engineering Society) et Buildings and Cities chez Taylor et Francis. Elle est Experte pour le Conseil d'Innovation InnoSuisse ainsi que membre fondatrice et membre du Conseil de la Fondation Culture du Bâti (CUB). Elle est aussi membre fondatrice de la Daylight Academy et membre active de plusieurs comités de l'Illuminating Engineering Society (IES) et de la Commission Internationale de l'Eclairage (CIE).
Yann BarrandonYann Barrandon graduated in Medicine in Paris where he also trained as a dermatologist and completed his PhD on the long term cultivation of human haematopoietic stem cells in 1982 under the direction of Dr. Catherine Dresch (Centre Hayem, St Louis Hospital). He worked as a post-doctoral fellow (1982-1983) with Pr. Marvin Karasek in the Department of Dermatology at Stanford University CA, and then with Pr. Howard Green, a pioneer in cell therapy, in the Department of Molecular and Cellular Physiology at Harvard Medical School (1983-1990). During this period, he participated in the world's first transplantations of epidermal stem cells on extensive third degree wounds and contributed several seminal findings including the demonstration of stem cells in cultures of human keratinocytes (PNAS 1987), and that human keratinocyte stem cells could be efficiently transduced by retroviral vectors (Science 1987), in collaboration with Richard Mulligan at the Whitehead Institute for Biomedical Research (Massachussets Institute of Technology, Cambridge, USA). He has also participated to the transfer of the stem cell technology from Harvard University to a spin off biotechnology company, now part of Genzyme Corp.
He returned to France in 1990 as Director of Research at the INSERM and Head of Lab at the Ecole Normale Supérieure, Paris. During this period, he demonstrated the presence of multipotent clonogenic stem cells in hair follicles (Cell 1994, 2001) and successfully brought stem cells from bench to bedside demonstrating the usefulness of a fibrin matrix to transplant epidermal stem cells. (Transplantation, 2000). Following his move to Lausanne, Yann Barrandon has shown that oligopotent stem cells are present in the mammalian cornea (Nature 2008), challenging previous dogma. He has also contributed to the characterisation of several skin diseases (Nature Genetics, 1993a, 1993b, 2000, 2005) and towards gene therapy of dystrophic epidermolysis bullosa. He is a partner in several EEC stem cell consortia (FP6: Therapeuskin and EuroStemCell, FP7: EuroSyStem, OptiStem, BetaCellTherapy).
Current research targets the role of small microenvironmental variations on stem cell behavior, and exploring the potency of stem cells of stratified epithelia (skin, esophagus, ocular surface) and of thymic epithelial cells. The lab is also involved in understanding the factors that regulate stem cell engraftment to improve epithelial cell therapy. An important aspect of the research aims at setting up a pilot clinical trial to demonstrate the feasibility of ex vivo gene therapy to treat Dystrophic Epidermolysis Bullosa, a rare but horrendous congenital disease of the skin that results in continuous blistering of the skin, chronic wounds, fusion of fingers and development of carcinoma.
Yann Barrandon was a member of the Faculty Council of the EPFL School of Life Sciences 2006-2008, of the Board of Swiss Stem Cell Network, 2004-2009, and is a member of the EPFL Ethics Committee since 2008. He is a reviewer for major scientific journals and for major granting agencies abroad. He is a member of the board of Directors of the International Society for Differentiation (ISD) and of the Tissue Engineering and Regenerative Medicine International Society (TERMIS) and was a Member of the Board of Directors of the European Tissue Repair Society, 1990-1995. He was elected as EMBO member in 2009.
He has given over 300 invited conferences and seminars worldwide on the biology and the therapeutic use of cutaneous stem cells including:
Gordon Research Conferences, Tissue Repair and Regeneration, June 2005, New London, USA,
Keystone Symposia on Stem Cells, April 2006, Whistler, Canada
Keystone Symposia, Stem Cell Interactions with their Microenvironmental Niche, March 2007, Keystone, USA
Keystone Symposia, Stem Cell Niche Interactions, April 2009, Whistler, Canada
Gordon Research Conferences, Epithelial Stem Cells, June 2009, Les Diablerets, Switzerland
7th Meeting of the International Society Stem Cell Research, July 2009, Barcelona, Spain
16th International Society for Developmental Biologists, Edinburgh, Scotland, UK, Sept 2009
Yann Barrandon has given multiple media interviews and participated to different reportages:
LCI, TF1, France 2, France 3, RSR (Radio Suisse Romande), TSR (Television Suisse Romande), and articles in newspapers: Figaro, La Croix, Le Temps, LHebdo, Le Nouvelliste, etc. He was also a participant in the movie A Stem Cell Story, EuroStemCell, Best TV/video production, Tromsø Science Media Festival; Best short film, Scinema (Australia); In competition, Science Film Festival (Bangkok), BaKaFORUM 2007, Vedere la Scienza
He organized the second EuroStemCell international conference Advances in Stem Cell Research supported by the EMBO and held in Lausanne 8-10 September 2006. He regularly participates as faculty to the EEC funded Stem Cell Summer School held in Hydra Greece since 2005.
Caroline KarmannCaroline Karmann is a PostDoctoral Researcher at the Laboratory of Integrated Performance in Design (LIPID) in the Swiss Federal Institute of Technology, Lausanne (EPFL). Caroline is interested in architecture and daylight in spaces, and in how our built environments affect our well-being. Her current research lies in the gap between visual comfort and visual interests based on the subjective and behavioral responses of occupants.
Caroline holds PhD in Building Science in Architecture from UC Berkeley and a dual Master’s degree in Architecture and Energy Engineering from INSA Strasbourg. Her doctoral project was devoted to indoor environmental quality in buildings using radiant conditioning systems. She conducted full-scale laboratory experiments and fields studies in 20 buildings. Her work was presented in multiple conferences including the ASHRAE conference, Windsor and PLEA, where she won Best Paper Award in 2018.
Caroline has five years of professional experience in the field of climate responsive building design. She worked as a consultant for daylight and energy at Transsolar (Stuttgart), where she specialized in building performance simulation, in particular daylighting simulation. Following her PhD, she worked for one year at Arup (London), where she conducted research on city resilience, and supported research activities through workshop facilitation and strategic planning.
